While moving through the environment, our central nervous system accumulates sensory information over time to provide an estimate of our self-motion, allowing for completing crucial tasks such as maintaining balance. However, little is known on how the duration of the motion stimuli influences our performances in a self-motion discrimination task. Here we study the human ability to discriminate intensities of sinusoidal (0.5 Hz) self-rotations around the vertical axis (yaw) for four different stimulus durations (1, 2, 3 and 5 s) in darkness. In a typical trial, participants experienced two consecutive rotations of equal duration and different peak amplitude, and reported the one perceived as stronger. For each stimulus duration, we determin...
Do humans integrate visual and vestibular information in a statistically optimal fashion when discri...
Do humans integrate visual and vestibular information in a statistically optimal fashion when discri...
Several studies have investigated whether vestibular signals can be processed to determine the magni...
While moving through the environment, our central nervous system accumulates sensory information ove...
To successfully perform daily activities such as maintaining posture or running, humans need to be s...
Sensory information processes leading to human self-motion perception have been modelled in the past...
Whilst moving through the environment humans use vision to discriminate different self-motion intens...
While moving through the environment, humans use vision to discriminate different self-motion intens...
Understanding the dynamics of vestibular perception is important, for example, for improving the rea...
International audience10 The vestibular system detects the velocity of the head even in complete dar...
This study investigated human sensitivity to detect conflicts between visual and vestibular informat...
Understanding self-motion perception is important, e.g., for developing perception-based diagnostics...
In this paper, we show that differences in reaction times (RT) to self-motion depend not only on the...
The perception of one’s own motion through the environment is based on the integration of different ...
Perceiving vertical self-motion is crucial for maintaining balance as well as for controlling an air...
Do humans integrate visual and vestibular information in a statistically optimal fashion when discri...
Do humans integrate visual and vestibular information in a statistically optimal fashion when discri...
Several studies have investigated whether vestibular signals can be processed to determine the magni...
While moving through the environment, our central nervous system accumulates sensory information ove...
To successfully perform daily activities such as maintaining posture or running, humans need to be s...
Sensory information processes leading to human self-motion perception have been modelled in the past...
Whilst moving through the environment humans use vision to discriminate different self-motion intens...
While moving through the environment, humans use vision to discriminate different self-motion intens...
Understanding the dynamics of vestibular perception is important, for example, for improving the rea...
International audience10 The vestibular system detects the velocity of the head even in complete dar...
This study investigated human sensitivity to detect conflicts between visual and vestibular informat...
Understanding self-motion perception is important, e.g., for developing perception-based diagnostics...
In this paper, we show that differences in reaction times (RT) to self-motion depend not only on the...
The perception of one’s own motion through the environment is based on the integration of different ...
Perceiving vertical self-motion is crucial for maintaining balance as well as for controlling an air...
Do humans integrate visual and vestibular information in a statistically optimal fashion when discri...
Do humans integrate visual and vestibular information in a statistically optimal fashion when discri...
Several studies have investigated whether vestibular signals can be processed to determine the magni...